Inherent Minor Conformer of Effector BteA Directs Chaperone-Mediated Unfolding.

The pathogen uses a type-3 secretion system (T3SS) to inject its cytotoxic effector BteA into the host cell via a designated needle structure. Prior to injection BteA is bound to its cognate chaperone BtcA presumed to assist in effector unfolding en route to needle passage. We utilized NMR and EPR spectroscopy to uncover the molecular mechanism of BtcA-mediated unfolding of BteA. BtcA induces a global structural change in the effector, which adopts a more extended and partially unfolded conformation. EPR distance measurements further show that the structured helical-bundle form of free BteA exists in conformational equilibrium with a lowly populated minor species. The nature of this equilibrium was probed using NMR relaxation dispersion experiments. At 283 K structural effects are most pronounced for a contiguous surface spanning the A- and B-helices of BteA, extending at 303 K to a second surface including the D- and E-helices. Residues perturbed in the minor conformation coincide with those exhibiting a BtcA-induced increase in flexibility, identifying this conformation as the BtcA-bound form of the effector. Our findings hint at a conformational-selectivity mechanism for the chaperone interaction with the effector, a paradigm that may be common to effector-chaperones secretion complexes in this family of pathogens.